Let `n_(1)` and `n_(2)` moles of two different ideal gases be mixed. If adiabatic coeffiecient of the two gases are `gamma_(1)` and `gamma_(2)` respectively, then adiabatic coefficient `gamma` of the mixture is given through the relation

x^(3)+5x^(2)+px+q=0 and x^(3)+7x^(2)+px+r=0 have two roos in common. If their third roots are gamma_(1) and gamma_(2) , respectively, then |gamma_(1)+gamma_(2)|=

Two ideal gases A & B are going through adiabatic process. Choose the correct option.

Find gamma for the mixture of 11 gm CO_(2) and 14 gm N_(2) ?

The apparent coefficients of volume expansion of a liquid when heated filled in vessel A and B of identical volumes, are found to be gamma_(1) and gamma_(2) respectively. If alpha_(1) be the coefficient of liner expansion for A, then what will be the be the coefficient of linear expansion for B? (True expansion - vessel expansion = app.exp)

The degree of freedom of mixture of two ideal gases having moles n_1 and n,_2 and degree of freedom f_1 and f_2 respectively, is

The coefficient of apparent expansion of a liquid when determined using two different vessle A and B are gamma_(1) and gamma_(2,) respectily. If the coefficient of linerar expansion of vesel A is alpha. Find the coefficient of linear expension of the vessel B.

Two ideal monoatomic and diatomic gases are mixed with one another to form an ideal gas mixture. The equation of the adiabatic process of the mixture is PV^(gamma)= constant, where gamma=(11)/(7) If n_(1) and n_(2) are the number of moles of the monoatomic and diatomic gases in the mixture respectively, find the ratio (n_(1))/(n_(2))

When 1 mole of monoatomic gas is mixed with 2 moles of diatomic gas, then find gamma for the mixture of gases.

Three moles of an ideal gas having gamma = 1.67 are mixed with 2 moles of another ideal gas having gamma = 1.4 . Find the equivalent value of gamma for the mixture.

The frquencies of K_alpha, K_beta and L_alpha X-rays of a materail are gamma_1, gamma_2 and gamma_3 respectively. Which of the following relation holds good?